Charging control apparatus, moving body, charging control system, and charging control method

1. A charging control apparatus that controls charging from an external power source to a battery, comprising one or more processors that execute computer-executable instructions stored in a memory, wherein in a case where a moving body possessing the battery is driven by power supplied from the battery, the one or more processors execute the computer-executable instructions to cause the charging control apparatus to: acquire a chargeable amount that is an amount the battery can be charged within a time period from a charging startable timing of the battery to a scheduled drive timing of the moving body; calculate a minimum state of charge that is a lowest state of charge needed by the moving body for a following instance of driving, based on a drive history of the moving body; and set a target state of charge that suppresses deterioration of the battery and is greater than or equal to the minimum state of charge, or a target charging amount that suppresses deterioration of the battery and is less than or equal to the chargeable amount.

2. The charging control apparatus according to claim 1, wherein the one or more processors cause the charging control apparatus to: acquire an electricity cost of the external power source, and set the target state of charge or the target charging amount such that the battery is charged in a time period during which the electricity cost is relatively low.

3. The charging control apparatus according to claim 2, wherein the one or more processors cause the charging control apparatus to acquire a tolerable charging frequency of the battery that can be tolerated by a user of the moving body, and set the target state of charge or the target charging amount in consideration of the tolerable charging frequency.

4. The charging control apparatus according to claim 3, wherein the one or more processors cause the charging control apparatus to: acquire a low-cost charging amount that is the chargeable amount that can be charged in the battery in the time period during which the electricity cost is relatively low; and change the tolerable charging frequency based on the low-cost charging amount and intent of the user.

5. The charging control apparatus according to claim 4, wherein the one or more processors cause the charging control apparatus to: calculate a minimum charging frequency of the battery based on the low-cost charging amount; compare the minimum charging frequency to the tolerable charging frequency and set a greater of the minimum charging frequency and the tolerable charging frequency as a target charging frequency of the battery; and set the target state of charge or the target charging amount in consideration of the target charging frequency.

6. The charging control apparatus according to claim 5, wherein the one or more processors cause the charging control apparatus to: acquire deterioration acceleration of the battery with respect to a state of charge of the battery, wherein; identify deterioration acceleration of the battery for the tolerable charging frequency and deterioration acceleration of the battery for the minimum charging frequency, based on the deterioration acceleration, and set whichever charging frequency results in a lower deterioration acceleration as a target charging frequency for the battery; and set the target state of charge or the target charging amount in consideration of the target charging frequency.

7. The charging control apparatus according to claim 5, wherein the one or more processors cause the charging control apparatus to: estimate a necessary charging amount that is necessary for the moving body in the following instance of driving, based on the drive history of the moving body; calculate a consumption amount of the moving body on each day, from a transition in a usage history of the battery in a past corresponding to the drive history of the moving body, and estimates the necessary charging amount based on the consumption amount; and calculate the minimum state of charge based on the necessary charging amount.

8. The charging control apparatus according to claim 7, wherein the one or more processors cause the charging control apparatus to: predict an average consumption amount of the moving body on each day, from the transition in the usage history of the battery, integrate the predicted average consumption amount over a prescribed interval, and calculate a first necessary charging amount by dividing the integrated average consumption value by the target charging frequency; predict a maximum consumption amount of the moving body on each day as the consumption amount, from the transition in the usage history of the battery, and calculate a second necessary charging amount from the predicted maximum consumption amount; and calculate a first minimum state of charge by adding the first necessary charging amount to the current state of charge, calculate a second minimum state of charge by adding the second necessary charging amount to a usage lower limit state of charge, and select whichever of the first minimum state of charge and the second minimum state of charge is greater as the minimum state of charge.

9. The charging control apparatus according to claim 8, wherein the one or more processors cause the charging control apparatus to: acquire a maximum charging amount that is a maximum amount that the battery can be charged within a time period from the charging startable timing to the scheduled drive timing; calculate a maximum state of charge by adding the low-cost charging amount or the maximum charging amount to the current state of charge; and set the target state of charge to be an state of charge that suppresses deterioration of the battery and is greater than or equal to the minimum state of charge and less than or equal to the maximum state of charge, or set the target charging amount to be a charging amount that suppresses deterioration of the battery and is greater than or equal to the necessary charging amount and less than or equal to the low-cost charging amount or the maximum charging amount.

10. The charging control apparatus according to claim 8, wherein if the second necessary charging amount is greater than or equal to the low-cost charging amount, the one or more processors cause the charging control apparatus to set the target charging amount in a manner to suppress deterioration of the battery and to be greater than or equal to the low-cost charging amount and less than or equal to the second necessary charging amount; and if the second necessary charging amount is less than the low-cost charging amount, the one or more processors cause the charging control apparatus to set the target charging amount in a manner to suppress deterioration of the battery and to be greater than or equal to the first necessary charging amount or the second necessary charging amount and less than or equal to the low-cost charging amount.

11. The charging control apparatus according to claim 1, wherein the one or more processors cause the charging control apparatus to: set the target state of charge or the target charging amount such that the target state of charge is greater than or equal to the minimum state of charge and in an state of charge region where deterioration of the battery is suppressed.

12. A moving body comprising the charging control apparatus that controls charging from an external power source to a battery and a battery, wherein the charging control apparatus comprises one or more processors that execute computer-executable instructions stored in a memory, wherein in a case where a moving body possessing the battery is driven by power supplied from the battery, the one or more processors execute the computer-executable instructions to cause the charging control apparatus to: acquire a chargeable amount that is an amount the battery can be charged within a time period from a charging startable timing of the battery to a scheduled drive timing of the moving body; calculate a minimum state of charge that is the lowest state of charge needed by the moving body for the following instance of driving, based on a drive history of the moving body; and set a target state of charge that suppresses deterioration of the battery and is greater than or equal to the minimum state of charge, or a target charging amount that suppresses deterioration of the battery and is less than or equal to the chargeable amount.

13. A charging control system comprising the charging control apparatus that controls charging from an external power source to a battery and a battery, wherein the charging control apparatus comprises one or more processors that execute computer-executable instructions stored in a memory, wherein in a case where a moving body possessing the battery is driven by power supplied from the battery, the one or more processors execute the computer-executable instructions to cause the charging control apparatus to: acquire a chargeable amount that is an amount the battery can be charged within a time period from a charging startable timing of the battery to a scheduled drive timing of the moving body; calculate a minimum state of charge that is a lowest state of charge needed by the moving body for a following instance of driving, based on a drive history of the moving body; and set a target state of charge that suppresses deterioration of the battery and is greater than or equal to the minimum state of charge, or a target charging amount that suppresses deterioration of the battery and is less than or equal to the chargeable amount.

14. A charging control method for controlling charging of a battery from an external power source in a case where a moving body possessing the battery is driven by power supplied from the battery, comprising: acquiring a chargeable amount that is an amount the battery can be charged within a time period from a charging startable timing of the battery to a scheduled drive timing of the moving body; calculating a minimum state of charge that is a lowest state of charge needed by the moving body for a following instance of driving, based on a drive history of the moving body; and setting a target state of charge that suppresses deterioration of the battery and is greater than or equal to the minimum state of charge, or a target charging amount that suppresses deterioration of the battery and is less than or equal to the chargeable amount.